Add to ORKGThis study is an investigation of long-term patch dynamics in the mosasic of forest communities covering the subalpine plateaus of Yellowstone National Park. The study is being supported by the National Science Foundation (Grant No. BSR - 8408181). Our specific objectives were rummarized in the 1985 Annual Report
A study of plant succession in relation to disturbance history was conducted in Douglas-fir [Pseudot...
The history and influence of fires was studied at the forest-grassland ecotone in high valleys of so...
The 1988 fires that burned in Yellowstone National Park presented ecologists with a unique opportuni...
This study is an investigation of long-term patch dynamics in the mosaic of forest communities cover...
Fire is now recognized as a major ecosystem process and Yellowstone National Park has recently imple...
Fire history was determined by fire scar analysis in a subalpine watershed in Yellowstone National P...
Fire is now recognized as a major ecosystem process and Yellowstone National Park has recently imple...
This study was begun in the summer of 1965. During that time, six areas that were burned in 1960, 19...
Substantial progress has been made in both the modeling and field studies during the first six month...
The months of June, July and August were spent in an attempt to locate suitable study sites for 1966...
There is substantial observational evidence suggesting positive interactions among fire, vegetation ...
Our research group carried out two projects through UW-NPS and the AMK Ranch in 2007, a field study ...
The 1988 fires that burned in Yellowstone National Park presented ecologists with a unique opportuni...
Understanding succession following severe wildfire is increasingly important for forest managers in ...
Fires burned almost 45% of Yellowstone National Park in 1988. The goal of this dissertation research...
A study of plant succession in relation to disturbance history was conducted in Douglas-fir [Pseudot...
The history and influence of fires was studied at the forest-grassland ecotone in high valleys of so...
The 1988 fires that burned in Yellowstone National Park presented ecologists with a unique opportuni...
This study is an investigation of long-term patch dynamics in the mosaic of forest communities cover...
Fire is now recognized as a major ecosystem process and Yellowstone National Park has recently imple...
Fire history was determined by fire scar analysis in a subalpine watershed in Yellowstone National P...
Fire is now recognized as a major ecosystem process and Yellowstone National Park has recently imple...
This study was begun in the summer of 1965. During that time, six areas that were burned in 1960, 19...
Substantial progress has been made in both the modeling and field studies during the first six month...
The months of June, July and August were spent in an attempt to locate suitable study sites for 1966...
There is substantial observational evidence suggesting positive interactions among fire, vegetation ...
Our research group carried out two projects through UW-NPS and the AMK Ranch in 2007, a field study ...
The 1988 fires that burned in Yellowstone National Park presented ecologists with a unique opportuni...
Understanding succession following severe wildfire is increasingly important for forest managers in ...
Fires burned almost 45% of Yellowstone National Park in 1988. The goal of this dissertation research...
A study of plant succession in relation to disturbance history was conducted in Douglas-fir [Pseudot...
The history and influence of fires was studied at the forest-grassland ecotone in high valleys of so...
The 1988 fires that burned in Yellowstone National Park presented ecologists with a unique opportuni...